| product_name | Lauryl acrylate |
| CAS_number | 2156-96-9 |
| formula | C15H28O2 |
| molar_mass | 240.39 |
| boiling_point | 280 |
| density | 0.874 |
| refractive_index | 1.441 |
| flash_point | 233 |
| vapor_pressure | 0.062 |
| autoignition_temperature | 346 |
| viscosity | 5.07 |
| specific_gravity | 0.874 |
| appearance | Colorless liquid |
| solubility_in_water | Insoluble |
What is Lauryl acrylate and what are its main uses?
Lauryl acrylate is a versatile chemical compound that is commonly used in the production of adhesives, coatings, and various polymer materials. It is derived from lauryl alcohol and acrylic acid, giving it both excellent adhesive properties and good chemical resistance. This makes it a popular choice for industries such as construction, automotive, and textiles.
What are the key characteristics of Lauryl acrylate that make it stand out?
One of the main advantages of Lauryl acrylate is its ability to create strong bonds with various substrates, including metals, plastics, and wood. It also offers excellent flexibility, impact resistance, and thermal stability, making it suitable for a wide range of applications. Additionally, Lauryl acrylate is known for its low volatility and low odor, making it a user-friendly option for manufacturing processes.
How does Lauryl acrylate compare to other similar compounds on the market?
Lauryl acrylate has several distinct advantages over other acrylate compounds. Its long carbon chain makes it more hydrophobic and improves its compatibility with non-polar substrates. This results in stronger adhesion and better performance in applications where moisture or harsh environments are present. Additionally, Lauryl acrylate offers enhanced flexibility and impact resistance compared to shorter chain acrylates.
What are some common applications of Lauryl acrylate in the industrial sector?
Lauryl acrylate is widely used in industrial applications such as pressure-sensitive adhesives, coatings, sealants, and textile finishes. Its ability to create strong and durable bonds makes it ideal for bonding substrates in challenging environments, such as outdoor applications or automotive components. Additionally, its flexibility and impact resistance make it suitable for applications that require a high level of performance and durability.
What are the key safety considerations when handling Lauryl acrylate in a manufacturing setting?
Like any chemical compound, proper handling and storage of Lauryl acrylate are essential to ensure worker safety and prevent accidents. It is important to wear appropriate personal protective equipment, such as gloves and goggles, when handling Lauryl acrylate to prevent skin contact and eye irritation. Additionally, proper ventilation should be in place to prevent inhalation of vapors, and spills should be cleaned up promptly to avoid slips and falls.
How can Lauryl acrylate be stored to ensure its stability and shelf life?
Lauryl acrylate should be stored in a cool, dry place away from direct sunlight and sources of heat or ignition. It should be kept in airtight containers to prevent moisture absorption, which can affect its performance and shelf life. Additionally, storing Lauryl acrylate away from incompatible substances, such as strong acids or oxidizing agents, is important to prevent chemical reactions and ensure its stability.
What are some of the environmental considerations when using Lauryl acrylate in manufacturing processes?
While Lauryl acrylate is a widely used chemical compound, there are certain environmental considerations to take into account when using it in manufacturing processes. It is important to follow proper disposal guidelines to prevent contamination of water sources or soil. Additionally, implementing waste reduction strategies and recycling efforts can help minimize the environmental impact of using Lauryl acrylate in industrial applications.
What are the key factors to consider when selecting Lauryl acrylate for a specific application?
When selecting Lauryl acrylate for a specific application, it is important to consider factors such as substrate compatibility, desired adhesive strength, flexibility requirements, and environmental conditions. By understanding the performance characteristics of Lauryl acrylate and how they align with the needs of the application, manufacturers can ensure optimal performance and long-term durability.
Are there any regulatory requirements or certifications that apply to the use of Lauryl acrylate in industrial processes?
As with any chemical compound, the use of Lauryl acrylate in industrial processes may be subject to regulatory requirements and certifications, depending on the specific application and industry. Manufacturers should consult with regulatory agencies and industry standards to ensure compliance with safety and environmental regulations. Additionally, obtaining certifications such as ISO 9001 or REACH compliance can demonstrate a commitment to quality and environmental responsibility in the use of Lauryl acrylate.
In conclusion, Lauryl acrylate is a versatile chemical compound that offers excellent adhesive properties, flexibility, and impact resistance, making it a valuable choice for a wide range of industrial applications. By understanding its key characteristics, safety considerations, and environmental implications, manufacturers can leverage the unique benefits of Lauryl acrylate to enhance the performance and durability of their products.